Two station control of fluid motors



S. G. DOWN TWO STATION CONTROL 0F FLUID MOTORS June 20, 1950 3 sheets-sheet 1 Filed Jan. 17, 1946 vo@ m\\ MQ n@ E E @E o: N: um m: O@T\\\\ o w E l @E E* @E v www v com. l www vom n@ om* mom mow @Q No@ um NQ@ QQ www www U0@ n@ @mi n www imm@ E IN I/ EN TOR A TTORN E Y June2o,195o 5.6K. DQwN I 2,512,013

TWO STATION CONTROL F' FLUID MOTORS Filed Jan. 1'7, 1946 l 3 Sheets-Sheet 2 E 72 72 19 2o 1g' 5 5758 eo 4a 5o 4159 70 1N VEN TOR 11 TTORN E Y June 20, 1950 v s. G. DOWN 2,512,013

- TWO STATION CONTROL 0F FLUID MOTORS Filed Jan. 1'7,` 1946 3 Sheets-Sheet 3 l ATTORNEY Patented June 20, 1950 UNHTED STATES `PMIIEIBII' 4GFF!CE'- TWO STATON CONTROL F ylL-UIVDMOTORS Sidney G.. Down, Edgewood, Pa, assigner ,to The Westinghouse Air Brake Company, Wilmerding, Pa a corporation of Pennsylvania.

Application January 17, 1946, Serial N o. 641,807

8 Claims. 1

This invention relates to fluid pressure control apparatus for controlling engine throttles and more particularly to the type for controlling throttles on steam locomotives.

On steam locomotives it has heretofore been proposed to employ a fluid pressure motor for adjusting the throttle valve which regulates the supply of steam for propelling the locomotive, and both a hand operated .and la foot operated control device, selectively operable by the engineer, have been provided to control the pressure of fluid for controlling said motor.

The hand operated control device was provided particularly for use when the locomotive was operating on a long run, requiring a substantially constant flow of steam for propulsion, since it could be adjusted to the required position in which it would then automatically remain.

The foot operated control device however was provided particularly for use in yard service where starting and stopping of the locomotive is usually very frequent as in transferring a train, car by car, over a scale for weighing, or asin making up trains. Further, when an engineer has to watch out of the locomotive cab window for signals from either the front or rear of the locomotive and then shift the locomotive accordingly in either one direction or `in the opposite direction, and which type of operation may continue for long periods of time in yard servicethe foot operated control device is particularly useful in that the engineer does not have to twist around into the cab to operate it, as he would to use the hand operated control device which is usually located convenient to the engineer when sitting for forward movement of the locomotive. The foot operated control device thus provides for easier and more prompt operation of the locomotive and minimizes fatigue to the engineer in yard service.

If desired, however, the engineer may use the hand operated control device in yard service, or the foot operated control device on long runs. The foot operated control valve device is such however as to require foot pressure to supply steam to propel the locomotive and which automatically operates to out off steam upon removal of foot pressure, so that during a long run it might become very tiresome. The hand operated control device is therefore usually preferred for use on a long run.

When the hand operated control device is adjusted to supply steam for propelling the locomotive on a long run, it is undesirable however to have interference from the foot operated control 2 device by accidentaily subjecting it to `toot pressure, andthe principal object of the invention is thereore to provide an improved throttle .control apparatus embodying means for preventing such interference.

Other objects and yadvantages vwill be apparent from the following more ydetailed .description of .the invention.

in theaccompanying drawings; Fig. '1 is a diagrammatic view, mainly in section, of a throttle control apparatus embodying one form of the invention; Figs. 2,3 and .4 vare sectional views taken on lines 272, 13s- 3, and 4-,4, respectively, on a hand operated control device shown in vertical section in Fig. 1; Fig. 5 is a sectional View of a throttle control device shown in elevation in Fig. 1; Fig. 6 is a View similar to a portion of Fig. 1 but embodying another form of the invention; and Fig. 7 is a sectional view taken on line 1 -'l in Fig. 6.

.Deepiion Figs 1 to 5 In the drawings, the reference numeral I indicates an adjustable engine throttle valve device vfor regulating `flow of power huid, such as steam,

from a pipe 2 to a pipe 3. Thepipe 2 may be supplied with steam from ailocomoti-ve boiler (not shown), while the pipe 3 maybe arranged to convey steam supplied thereto to locomotive driving means (not shown) for propelling the locomotive` The throttle valve `device I is operable to regulate or vary the amount of steam supplied to pipe 3 in accordance with the adjustment of a lever 4 to and between a throttlelclosed or poweroff position in which it is shown in the drawing, and a fully .Open o r maximum power position, Suoh as indicated by e dot-dashrline 5.

A throttle .Control motor 6 is provided which comprises a power portion 1 for adjusting the throttle control lever L 11, and a pilot portion B for regulating the operation of the vpower portion 'I in accordance with pressure of uid in a control pipe 9- As shown in Fig. 5 of the drawings, the power portion 1 of the throttle control motor comprises a ,CnSing ,containing .al double acting piston Iii having a rod II extending through a pressure chamber I2- and a suitable packing gland I3 in the casing wall to the exterior of the casing. The outer end of the piston rod I I is operatively connected by a suitable link I4 te the end of lever 4 of the throttle v alve device I.

The pressure `chamber IZ yat one side of the power piston vIll is connected to a power .cut-oir pipe I5 and contains a spring I6 acting on said asiaie r 3 piston for urging same in the direction of the right hand to a steam cut-olf position in which it is shown in the drawings. At the opposite side of the power piston E9 is a control chamber l1 which is connected by a passage I8 to the pilot portion 8.

The pilot portion 8 of the throttle control motor is provided for controlling through passage EB the supply and release of fluid under pressure to and from power chamber l1 for varying the position of power piston i 5 in accordance with the pressure of iluid provided in the control pipe 9, and to this end comprises a casing containing a flexible diaphragm I9 at one side of which is a pressure chamber 2l] connected through a passage 2l to said control pipe. At the opposite side of diaphragm i9 is a chamber 22 which is open to atmosphere through a passage 23. The casing is provided with bores 24 and 25 at opposite sides of and coaxially aligned with the diaphragm i5. One end of bore 24 is open to chamber 22. The adjacent end of bore 25 is open to chamber 2d while its opposite end is open to a larger bore 25 the outer end of `which is closed by a cap nut 21.

A stem 23 extending centrally through the diaphragm I9 and secured thereto for movement therewith has one end portion 29 disposed to slide in the adjacent end portion of bore 24, while its opposite end portion 3B is mounted to slide in bore 25. The portion 35 of stem 28 is provided near its end with an annular recess in which there is disposed a sealing ring 3i having sealing and sliding contact with the wall of bore 25 for preventing leakage of fluid under pressure from chamber 2). The end portion 35 of stem 28 `engages the smaller end portion of a plunger 32,

the larger end portion 33 of which is disposed to slide in bore 255. In this larger portion 33 of plunger 32 is an annular groove carrying a sealing ring 84 having sliding and sealing contact with the wall of bore 2S to prevent leakage of fluid under pressure from a chamber 35 at its outer face to the space between said ring and the sealing ring 3|, this space being constantly open to atmosphere through a passage 35 in plunger 32 and a registering passage 31 which extends through stem 28 tochamber 22. Chamber 35 at the outer end of plunger 32 is open through a passage 3B to passage i8.

The portion 25 of stem 28 which is disposed in bore 24 is provided with two spaced sealing rings 39 having sealing and sliding contact with the wall of saidbore to prevent leakage of fluid uni der pressure past said rings from -an annular recess 45 provided in the peripheral surface of said stem between said rings. The recess l5 is open through a plurality of ports 4l to an annular recess ll2 in the casing and thence through a passage 43 to a fluid pressure supply pipe 44, which may be charged with fluid under pressure from any suitable source (not shown).

The annular recess d5 is also open through a plurality of ports 45 to a counterbore 45 provided in the portion 25 of stem 28. The open end of counterbore lit is closed by a plug l1 which is secured to and is movable with stem 28. The plug 41 has an axial bore one end of which is open to a chamber 53 at the end of portion 29 of stem 28, while the opposite end is open to counterbore 4S within said stem, and slidably mounted in this axial bore is a fluted stem 49 projecting from a fluid pressure supply Valve 5D contained in said counterbore and arranged to seat against the adjacent end of said plug. A precompressed spring 4 5| in counterbore 46 acts on the supply valve 5 for urging said valve to the seated or closed position, as shown in Fig. 5.

The end of the supply valve stem 45 extends beyond the outer face of plug 4l' into chamber 48 and therein engages a release valve 52 which has a uted stem 53 slidably mounted in a bore provided axially in a plunger 54 which is mounted to slide in a bore in the casing in coaxial relation with the diaphragm operated stem 25. In the peripheral portion of plunger 54 are two spaced recesses in each of which is a sealing ring 55 having sealing Contact with the wall of the casing bore for preventing leakage of uid under pressure from one side of each ring to the opposite side. Between the two rings 55 the plunger 54 has an annular recess 56 which is open through one or more ports to a bore 51 in the plunger and into which bore the end of the release valve stem 55 projects. The recess 55 is also open through one or more ports 5B in the casing to an annular recess 59 which is in constant communication with atmosphere through an insect excluding tting 60.

The outer end of the bore in plunger 55 is closed by a plug El and between the inner end of said plug and the adjacent end of the release valve stem 53 is interposed a precompressed spring 62 for urging the release valve 52 out of seating engagement with the end of plunger 54. In the outer end of plug 6i is an adjusting screw 63 the end of which bears against a lever (ifi. One end of lever 64 is mounted to rock on a pin 65 which is mounted in a fixed arm 65 projecting from the casing. The other end of lever G4 is operatively connected to the power piston rod l! by means of a lug 61 projecting from said lever into an annular groove 68 provided in said rod.

It will be noted that chamber 48 containing the release valve 52 is formed between the adjacent ends of the portion 2Q of stem 28 and or plunger 54, and that said chamber is open to passage i8 leading to the power piston chamber i1. Passage I8 is also open to passage 38 leading to chamber 35 at the outer face of plunger 32 as before mentioned, and it is desired to point out that the enlarged portion 33 of said plunger is of the same area as plug 41, whereby pressure of fluid effective in chamber 35 on plunger 32 tending to urge the structure including diaphragm I9 in the direction of the left hand will be counter-balanced by an equal pressure in chamber 48 acting on the plug 41.

Carried by the casing and projecting into chamber 25 at the right hand side of diaphragm I9 is a stop 69 arranged to be engaged by a plate 10 secured to the stem 28 for limiting deflection of said diaphragm in the direction of the right hand. In chamber 22 a control spring 1l encircling the stem 28 bears at one en d against the casing, while the opposite end bears against a follower 12 provided on stem 28 and engaging the adjacent face of diaphragm I9. This spring is operative to urge the diaphragm I9 to the position in which it is shown in the drawings upon release of fluid under pressure from chamber 2B, and to oppose movement of said diaphragm in the direction of the left hand upon supply of fluid under pressure to said chamber, and to cooperate with such pressure to dene diiierent positions of said diaphragm.

Also associated with the casing of the pilot valve device is an insuring valve device 13 comprising a poppet valve 14 contained in a chamber 1'5 which is open to passage i8. The valve 14 has vpower piston I is.

a fluted stern disposed in a bore connecting :chamber .l to a .chamber `'Iii which is open to atmosphere through the fitting Bil, said valve be- `ing arranged to control .communication between passage t8 and .said fitting, like the release valve 52, but under different conditions as will be later brought out. A spring Il in chamber l5 acts on valve 'lil for urging it izo-closed position.

The fluted stem of valve 1A engages in chamber `l a 'stem 173 which .extends through a bore in 1a wall separating said chamber from a cham- .loer 'i9 provided at one side of a1piston80 to which said stem is connected. vChamber i9 is kopen to atmosphere through a port 8|. At the opposite side 4of piston 823 is a pressure chamber 82 which vis connected to the cut-.out `pipe 4I 5.

-In operation, `let it'be assumed that vpr-essure of fluid 4in chamber 2li is at or Anear atmospheric pressure. Under this con-dition lspring .l I will urge diaphragm I9 and -stern 2B to the position vshown in Fig. 5, and the supply valve 5G will, as a result, rbe closed .by spring 5I. Chamber 38 Yand `the connected chamber ITI at the right hand face of thepower piston .it will, under this condition, be substantially at atmospheric pressure, and the release valve 52 will be seated for reasons which will .become apparent `from the description to follow.

Thus when diaphragm I9 is in its normal position shown inthe drawing the lpressure of fluid in .the power piston chamber Il will be so reduoedas to permit piston IIl -to-.occupy its power cutoff position under pressure of spring I 6 for thereby .actuating the throttle control device I to its .power off .position for steam to pipe/3.

Let it now loe-assumed that itis desired to supply steam to pipe 3 for propelling the locomotive. To accomplish this liuid under pressure will be supplied .through the control pipe VSi to diaphragm chamberf and when this pressure becomes sufcient to .overcome the Yopposing force of spring il the diaphragm `I3 will be deflected in the ,direction of the left hand `to a position where theincrease .in pressure of .said spring will `counterbalance the pressureof fluid in chamber 2E. `As the diaphragm ISis :thus moved the stem 2B and plug 4l will move relative to and shift said plug -out of seating engagement with the ,supply valve 5t, since said valve is held against movement at this time by engagement with the release valve 'E2 which is also heldagainst movement by plunger li, lever Si and a relatively great reluctance to movement of the power piston Iii.

Upon opening of the supply valve 5@ fluid under pressure from the supply pipe All will then flow past said valve to chamber 48 and thence to chamber Il at the right hand side of the When the pressure of fluid thus obtained in chamber I1 thenbecomes suilicient to overcome the opposing force of spring It and the resistance to movement of the throttle valve device I, the piston Ii) willmove in the direction of the left hand.

After movement of diaphragm I9 ceases in a position corresponding to the pressure of fluid provided in chamber 2G, movement of the power piston Iii under pressure of fluid provided in chamber Il will vact through lever '64 to allow movement of plunger 54 by pressure of fluid in chamber 133 in a direction away from plug 41,

and this movement of said plunger will permit movement of the supply Vvalve 5i? by spring 57 .toward-its seat. The supply valve 50 will finally engage its seat in a position ofpower piston A[215 preventing supply of .corresponding to theposition of said seat aspredetermined by the pressure of controlling fluid provided in chamber v20. When the supply valve 519 vis thus closed, iiow of fluid under pressure to chamber 43 and to the power piston chamber Il will stop and .hence rmovement of the power piston will cease in a position corresponding to the pressure of fluid effective in chamber 2l).

lt will thus be seen that uponsupply of nuid to diaphragm chamber 2li the throttle control motor 6 will operate to cause operation of the throttlevalve device I tosupply steam to pipe 3 in an amount proportional Vto the pressure of such uid.

If `the*throttle valve device I is operated as just described to `provide less than `full steam supply to pipe 3, the supply of steam may be increased by increasing the pressure of uid'in diaphragm chamber 2G, whereupon the throttle control motor Vil will again roperate as Vjust described to correspondingly increase the supply ofsteam to pipe 3. A :maximum pressure k,of fluid in diaphragm chamber ii :will `cause operation of the throttle control lever s to its full open or maximum power position indicated by the dot-dash line 5.

-On the other hand, if the operator desires to reduce the amount of steam supplied to pipe '3 he will reduce the pressure of fluid lin diaphragm chamber 2;@ to ya ldesired degree. Spring 'lI will then Amove 4diaphragni I9 inthe direction of the rightghandto :afnew posi-tion corresponding to the reduced pressure of fluid in chamber 2li. As diaphragm t@ is thus moved toward the right hand -it-wil1 carry with it the supply valve 50, which will be seated 'under pressure of spring 5l, thus rendering spring -162 effective to move the release valve 52 with the supply valve and relative to the plunger sd `and out yor seating engagement Awith said plunger, since sa-id plunger .will at this .time be held against `rr-iovement by pressure of fluid in .chamber t8. Upon this opening of the release valve 52 -fluid under pressure will be released from chamber llt and thereby from the power-pistonohamber Il' which will permit spring ir-6 tofmove the power piston Iii and lever l of .the throttle control device VI in the direction of ftherightfhand. The .piston IE) as itis thus moved will operate lever 364 to move plunger 5d in the direction of the release Valve E2. After movementor diaphragm I il'and release valve '52 ceases iin-a position corresponding to the reduced pressure-of lfluid in chamber 20, this vmovement of plungeri will b e relativeto said valve and said Lplunger will viinallyengage said valve to prevent further release of fluid under pressure from .chamber Il' whereupon the power piston I@ and leversl will s topinraposition corresponding to the :reduced pressure of fluid in diaphragm chamber J9. The ,throttle vvalve device I will thereby be adjusted to-reduce `the amount of steam supplied t0 pipe "3 1110 a Vdegree corresponding to the re- .fduced pressure ofgfluid indiaphragm chamber Zi.

'Ira further release of fluid under pressure from Y,diaphra-gm chamber 2D is eiected, the power piston i@ .will again be caused to operate in the manner just described Yto effect operation of the throttle valve device I to correspondingly reduce the supply of steam to pipe 3. Upon reducing the Vpressure of -iluid in diaphragm chamber 2t to or substantially to atmospheric pressure, the diaphragm I9 and supply valve 5t will be returned -to the positions in which they are shown in Fig. ;5 under the action of spring II, whereupon the fpower piston I will valso be returned to its cut- ;oiT-positionin whichit is shown in the drawing,

to thereby actuate the throttle valve device I to its throttle closed or power-off position. As the power piston III obtains its cut-oi position, the plunger 54 may just move into contact with the release valve 52.

It will now be seen that the throttle valve device I will be adjusted to any position between and including its throttle closed or power on position and its fully open or maximum power position, by providing through pipe 9 the proper pressure of fluid in diaphragm chamber 20.

In the above described operation of the throttle control motor 6 it was assumed that spring chamber I2 was open to atmosphere through pipe I5, under which condition movement of the power piston I to its power cut-oir position will be effected by spring I6.

In order to positively insure that the supply of steam will be cut oi to pipe 3 when the parts of the pilot portion 8 of the fluid motor 6 are in the positions in which they are shown in Fig. 5, and when fluid under pressure is released from chamber II, and particularly in case of breakage of spring I5, fluid under pressure will be supplied to chamber I2 through the cut-'off pipe I5, by means to be later described. To insure the release of fluid under pressure from chamber I'I at this time, even though spring 'II acting on diaphragm I9 should become broken or spring 62 acting on release valve 52 should become broken which would prevent `opening of the release valve 452, the insuring valve piston 80 will be operated by fluid under pressure supplied to the cut-off pipe I5 to unseat valve I4 te` thereby open the power piston chamber I'I to atmosphere through the communication by-passing the release valve 52.

During operation of the throttle adjusting motor 6 for supplying steam to pipe 3 as above described, spring chamber I2 and piston chamber 82 will however be open to atmosphere through the cut-off pipe I5, and as a result the insuring valve I4 will be closed.

Fluid under pressure is adapted to be supplied to and released from diaphragm chamber 2!) in the pilot portion 8 of the throttle adjusting motor E either by operation of a hand operated throttle control valve device 95 through the medium of a pipe 86, or by operation of a foot operated throttle control valve device 81 through the medium of a pipe 88. Both of these control valve devices are adapted to be located in the cab of a locomotive, and the two pipes 8B and 88 lead to opposite ends of a double check valve 89 which is arranged to control communication between said pipes and the control pipe 9 leading to diaphragm chamber 2Q in the throttle control motor 6. When fluid under pressure is supplied to chamber S9 the double check valve 89 will be moved to the position in which it is shown in the drawing for opening said pipe to pipe 9 and for closing communication between said pipes and pipe 88. When fluid under pressure is effective in pipe 88 the double check valve 89 will be moved to an opposite position for opening said pipe to pipe 9 and for closing communication between pipe 85 and pipes 88 and 9.

The hand operated throttle control valve device '85 comprises a casing containing two c-oaxially aligned and spaced lapart flexible diaphragms 9I and e2 of the same areas, which are clamped around their edges in the casing. Between the wo diaphragme 9| and 92 is a chamber 93 open through a passage III to a uid pressure supply pipe 94 and thus adapted to be constantly f charged with fluid under pressure. At the opposite side of diaphragm 92 is a chamber 95 which is open to atmosphere through a breather port 96, while at the opposite side of diaphragm SI is :a chamber 91. Chamber 91 is connected through a stabilizing choke 98 provided in a wall |00 to a chamber 99. Chamber 99 is open through a passage 2 I3 to the control pipe `86.

Chamber 93 is divided into two Parts by a partition wall IBI having an opening |0261, providing ea constantly open communication between said parts. The partition wall =I I also has a through bore arranged coaxially with respect to the two diaphragms, and slidably mounted in this bore and extending into the two parts of chamber 93 is a stem I2. One end of this stem is connected to the center of diaphragm 92 by follower plates I03 and a clamping nut Il. The opposite end of stem I02 is provided with an enlargement |95 extending through the center of diaphragm 9I and secured thereto by clamping plates IE6 and a clamping nut itl disposed in chamber 97.

'Ihe clamping nut I'l has a cylindrical extension IIIS slidably mounted in a sleeve |69 arranged coaxially to the two diaphragme and extending through chamber 99 and wall I. The enlargement I of the diaphragm connecting stem IB2 has a chamber IIE open through a port `I II to chamber 93 and containing a liuid pressure supply valve H2 having a fluted stem II3 extending through an axial bore in nut Il into a chamber Il which is open to the interior of the sleeve and thence through one or more ports I I5 in said sleeve to chamber S9. On the end of nut IIlI adjacent chamber IIli a seat is provided for the supply valve IIZ, and a spring I I6 contained in said chamber acts on said valve for urging it into contact with its seat.

Slidably mounted in sleeve IIlQ above the nut extension Hi8 is a plunger II'I carrying a ring IIS having sealing and sliding contact with the interior surface of said sleeve for preventing leakage of fluid under pressure along said sleeve from chamber lid formed between the adjacent ends of said plunger and of nut IIB'I. The plunger III has an axial bore open to chamber IIII and slidably mounted in this bore is a uted stem IIS of a fluid pressure release Valve |29 contained in said chamber, said valve having a seat on said plunger around the adjacent end of said bore. The release valve IEB and stem IIB are arranged in coaxial relation with the supply valve I I2 and its stem lis, and said release valve is urged into Contact with the end `of the supply valve stem by a spring I2i contained in a bore 122 in said plunger. The upper end of bore I2 is closed by a cap nut I23 which extends into said bore and supports the adjacent end of spring I2I. The bore I22 is constantly open to atmosphere through one or more ports i213, a chamber |25 and a vent port 26.

The pressure of spring iZI on the release valve IZ is less than that of spring IIE on the supply valve H2 so that upon movement of plunger II'I in the direction oi' said supply valve the latter spring will hold the release valve IZB against movement until engaged by said plunger, following which, further movement `of said plunger will act through said release valve to open said supply valve, and so that upon movement of said sleeve in the opposite direction spring IIS will seat the supply valve H2 before spring |89 will be able to hold the release valve I2 against movement, whereby plunger I I'I may then move out of cori--x tact with said rele-ase valve.

In chamber 93 a coil regulating spring |21 encircling stem |02 is supported at one end! on the wall The opposite end of spring |21 `acts on diaphragm S|- againstA pressure 01 fluid in chamber 9T. With the diaphragm `9| and plunger I1 in the position in which they are shown in the drawing and in which the supply valve ||2 is closed Vand the release valve is open, the regulating spring |21? is adapted' to be extended to its free height.

rThe plunger extends above the upper end of' sleeve |09 and encircling' this portion of said plunger and supported by the end of the sleeve is va bias spring |30. The opposite end of spring I 30| bears against cap nutv |23` and is provided for urging the plunger to a position to permit opening yof the release valve |20 by spring |2|.

An operator-s control lever |28 extends through an opening in the casing into chamber I2 5"-wherein it is journaled onthe sleeve |09 and supported on a surface |2211v in the casing. In chamber |25 the operators control lever |28 is provided with an upwardly extending cylindrical portion |3| encircling the bias spring |30 and having two oppositely arranged longitudinally extending slots An inverted U-shaped saddle |33 extending over the cap nut |23v has two oppositely arranged legs ltd slide-bly mounted in slots |32 in the cylindrical portion |3| of lever |28. In the base portion of saddle |33 is a regulating screw |35 engaging the cap nut |23` and secured in an adjusted position bya lock nut |36. Each of the saddlel'egs |34 has an outwardly extending toe |31 slidably engaging like but oppositely arranged cam surfaces |38 provided on a ring |39 which is secured in the casing.

The operators control lever |28 has, what. may be called for convenience, a normal position in which it is shown in Figs. 1, 3 and 4 of the drawings, this position being provided for causing operation of the throttle control motor 6, in a manner to be presently described, to cut oi the supply of steam pipe 3, and for also permitting control of, said motor by operation of the foot operated throttle control valve device 8l, control of saidmotor by said foot operated control. valve device bei-,ng prevented in all other positions of. said lever, as willY also be later brought out. operators control lever |28 also `a full power position indicated in Figsf 3 and 4: of the drawingsby a dot-dash line |40 for causing operation. of the throttle controlmotor t3 to` move the throttle control device |k to its fully open or maximum power position, and the distance between-the normal position of lever and the full power position indicated by dot-dash line ist eonstitutesa range of adjustment of said lever for varying the supply of steam to pipe 3. At the opposite side ofy normalv position the operators:l control lever |28Y has a power cnt-off insuring position indicated by a dot-dash line IM.,

Wi the operators control lever |23 in the position, the toes |31 on, saddle |34 enti-ous of the cam surfaces |38 which pernt of plunger by bias spring |39 '-z-n upward position in which the E@ is unseatedfrom the end of said ng iil, and the supp-lyv valve H2 d. by spring |46. With the supply valve ltr c the release valve |2|| open chambers es and s? andY thereby theA control pipe 36 weil open toy atmosphere past said release valve, through the interior of" plunger and thence through ports |24-, chamber |25 and vent port |25.

If the operators .Control lever |28 is moved in a clockwise direction, as viewed in Fig. 3 of the 5f. drawing, this movement will turn the saddle |33 relative to ring |39 and the engagement between the saddle toes |37 and the cam surfaces |33 on said ring will move the plunger lil in the direction of the release valve lil. If this movement of the operators control lever lil is suincient, the plunger H1 will be moved into Contact with the release valve l2@ `and then actuate said release valve to open the supply valve H2 to an extent corresponding to the position of said lever out of its normalI position.

Fluid under pressure from the fluid pressure supply pipe 9c will then ilow through chamber 93 past the open supply valve H2 to chamber l Hl and thence through ports I5 to chamber 99 and to the control pipe 85. As iluid under pressure is thus supplied to chamber 99 it will also flow through the stabilizing choke 9s into chamber 97 and therein act on diaphragm 9| in opposition to pressure of regulating spring |52?. When the pressure of uuid thus' obtained in chamber d? and in the control pipe 85 is increased to a degree suiicient to overcome the force of spring |22, the diaphragm 9| will deflect against said spning in the direction of the supply valve H2. Assuming that movement of the operators control lever |23 from its normal position has been limited to less than the maximum degree, the suppplyl valve H2 will be stationary, so that movement of diaphragm 9| by the increasing pressure of iiuid in chamber Q7 will be relative to said valve until the nut @l is moved into contactv with said valve to prevent further flow of duid underl pressure to said chamber and' to the control pipe SB'. Vihen the supply of fluid under pressure to the control'pipe 35 yand to chamber El is thus cut on' movement of diaphragm 9| will cease', since the increased pressure of spring |21 will counterbalance the pressure of fluid in said chamber, whereby the pressure of fluid in said 5. chamber and in the control pipe et will be limited in accordance with the position of the supply valve H2 as dened by the extent of movement of the operators control lever lt from its normal position.

il If the operator desires to increase the pres-sure of fluid in the control pipe 36 he will move lever |28 further in thedirection of the position indicated by the dot-dash line ist for thereby again unseating the supply valve |52. Fluid 5g;V under pressure will then again be supplied past the supply valve H2 to the control pipe il@ and diaphragm chamber Sli, and the diaphragm El will again deflect against spring |27 until it seatsl against supply valve ||2 for limiting the oA pressure of uid in the control pipe su in accordance with the new position of the operators control lever |28.

If the operators control lever is moved to the full' power position indicated by the dot-dash line Mil, the supply valve H2 will be displaced in a downwardly direction to a maximum degree,

and the Control valve device will function in the same manner as' just described to supply fluid under pressure to pipe 86 until such pressure effective in chamber 9'! becomes increased to a degree suflicient to deflect diaphragm 9| to an extent required to again close said supply valve. It will thus be seen that by Suitable adjustment of the operatorsl control lever H1 out of its normal position in theA direction of and to the full power position indicated by dot-dash line |40, any desired pressure of fluid up to and including a maximum may be provided in the control pipe B6.

Assuming that the control pipe 86 is charged with fluid under pressure as just described and the operator desires to reduce the pressure of such ilulid, he will move the control lever |29 back in the direction of its nonnal position, whereupon the position oi the saddle toes |31 with respect to the cam surfaces |38 will be so changed as to permit bias spring |30 to move the plunger ||1 in a direction away from the supply valve ||2. With the supply valve II2 seated spring I2I will hold the release valve |20 against movement with plunger I I1 so that said release valve will be unseated and open chambers 99 and 91 and the control pipe 86 to atmosphere. Fluid under pressure will then be released from chambers 99 and 91 and from the control pipe 86, and as the pressure of fluid in chamber 91 reduces the regulating spring |21 will move the diaphragm 9| in an upwardly direction, and spring ||6 acting on the supply valve H2 will move said valve and the release valve |20 with said diaphragm.

Assuming that the operators control lever |28 is still out of its normal position and movement of the plunger ||1 in an upwardly direction is limited to a degree less than to its normal position, this movement of diaphragm 9| by spring |21 and thereby of the supply valve I|2 and release valve |20 by spring ||6 will be relative to said plunger until said release valve moves into seating engagement with said plunger for preventing further release of fluid under pressure from pipe 86 and chambers 99 and 31. Movement of diaphragm 9| will then cease since the pressure of iiuid remaining in chamber 91 and effective in the control pipe 86 counterbalances the reduced pressure of spring |21. It will thus be seen that the pressure of iuid in the control pipe 86 will be reduced only to a degree corresponding to the change in position of the operators control lever I I1.

If the lever |28 is moved further towards but not to its normal position the structure will again operate as just described to cause a corresponding reduction in the pressure of iluid in pipe 85, while if lever |28 is returned to its normal position, in which it is shown in the drawing, the.

plunger ||1 will be moved to such a position as to prevent closure of the release valve |20 at the time the spring |21 becomes extended to its free height` Under this latter condition the release valve |20 will therefore remain open so as to completelv vent fluid under pressure from the control pipe 86.

It will thus be seen that any selected pressure between atmospheric pressure and a chosen maximum degree may be provided in the control pipe 25 by suitable adjustment of the operators control lever I28 in and between its normal position and its full power position indicated by the dot and dash line I 45, respectively. It will further be apparent that when the double check valve 89 is in the position shown in the drawing opening communication between the control pipe 36 and the control pipe 9 for the throttle control motor E, the throttle valve device will be operated to cut on" the supply of steam to pipe 3 when the operators control lever |28 is in its normal position, and will be operated to its fully open position indicated by the dot-dash line when the operators control lever I 28 is moved to its full power position indicated by the dot-dash line |40, while upon movement of said lever to any intermediate position the throttle valve device I will be correspondingly positioned so as to limit the amount of steam supplied to pipe 3 in accordance with the position of the operators control lever.

The operators hand operated throttle control valve device further comprises a cut-off valve device |42. The cut-oli' valve device |42 comprises a supply valve |43 contained in a chamber |44 to which the cut-01T pipe I5 is open. The supply valve |43 is carried on the end of a stem |45 projecting from a sleeve |46 which is slidably mounted in a bore in the casing. Between the sleeve |46 and the supply valve |43 and encircling the stem |45 is an annular chamber |41 which is open through a port |48 and another annular chamber |40 to passage I 55 which is connected to the fluid pressure supply pipe 94 whereby the annular chamber |41 is adapted to be constantly supplied with fluid under pressure.

A spring |5| contained in chamber |44 acts on the supply valve |43 for urging it to a closed position in which it is shown in the drawing. The sleeve |46, stem |45 and supply valve |43 are provided with a through bore |52 one end of which is open to chamber |44. The opposite end of bore |52 opens through sleeve |46 to a chamber |53 containing a release valve |54 which is arranged to seat against the end of said sleeve for closing communication through said bore. Chamber |53 is open through a port |55 to chamber I 25 which is open to atmosphere. A plunger |56 slidably mounted in a suitable bore in the casing extends into chamber |53 and therein is provided with a head |51 for engaging the release valve |54. The opposite end of plunger |56 is disposed for engagement by a cam |58 (Fig. 4) on the operators control lever |28 when said lever is in its normal position.

When the cam |58 is moved into contact with plunger |55 it will move said plunger in the direction of the right hand as viewed in Fig. 1 to rst move the release valve |54 into contact with the end of sleeve |46 and to then actuate said sleeve to open the supply valve |43. When the cam |58 is moved out from under the plunger I 55, the supply valve |43 will be closed by spring |5| and the release valve |54 will be free to open.

The cam |58 is arranged to close the release valve |54 and open the supply valve |43 only in the power on insuring position of the operators lcontrol lever |28, indicated by the dot-dash line I 4|, for thereby supplying fluid under pressure to the cut-off pipe I5 and thence to spring chamber I2 in the throttle control motor E to insure movement of the power :piston I2 to the position in which it is shown in Fig. 5 for actuating the throttle valve device I to cut oil the supply of steam to lpipe 3. Even if fluid under pressure is effective in chamber I1 on the right hand side of the power piston I0 at this time the provision of fluid in chamber I 2 at an equal pressure will, with spring |5 effective, permit said spring to move the power piston |0 to its cut-off position for actuating the throttle control valve I to cut off the supply of steam to pipe 3, as will be apparent the operators control lever 2B is in any position out of the power cut-off ensuring position the cam |58 will be moved out from under plunger |56 to permit closing of the supply Valve |43 by spring |5| and opening of the release valve |54 by pressure of Huid from the cut-off pipe I5, so that the spring chamber l2 in the throttle adiusting motor e will be open to atmosphere to permit operation of said motor to adjust the throttle control valve device as above described.

The foot operated throttle control valve device 81 comprises a casing containing a flexible diaphragm |88 clamped therein around its edge. At one side of' diaphragm |88 is a chamber |8| open to atmosphere through a port |52 and containing a regulating spring |63 bearing against a follower plate |64 mounted against the adjacent face of said diaphragm. At the opposite'side of diaphragm |88 is a control chamber |85 and opening to this chamber is a bore arranged in coaxial relation withY the diaphragm |88. Slidably mounted in this bore.v adjacent the diaphragm chamber |65 is a sleeve like extension. |66 of a follower' plate |81' engaging the adjacent face of diaphragm |88. The vplate |61 is provided centrally with a stem |88 extending through the diaphragm |88 and the follower plate |68, and in chamber |81. aV nut |89 is provided on said stem for clamping the diaphragm between the two plates.

Above the extension |88. of follower plate |61 is a plunger |18 slidably mounted in the casing, and between the adjacent ends of said extension and plunger is a chamber |1| which is open to the control pipe 88 and also through a choke |12 to diaphragm chamber |55.

The diaphragm follower stem |88 and extension |89 are provided with an axial bore one end of which is open tov chamber 18| while the. o pposite end is open through a. valve seat to chamber |1|, a release valve |13- being provided in the latter chamber for cooperation with said seat for closing communication between chambers |1| and |51.

The plunger |18 has a chamber |18 containing a fluid pressure supply valve |15 arranged to control communication between said cham-y ber and an axial bore l'itwhich opens to chamber |1|. A. spring |11 in chamber |18 acts on the supply valve |15 for urging it to its seat. The supply valve |15 and release valve |13 are connected together for a movement. in unison by a pin |92. The chamber |18 is open through a port |18 to a chamber |19 provided around the plunger |18 and which annular chamber is open to a iiuid pressure supply pipe |88. At either side of the annular chamber |18 the plunger has a sealing ring |8| slidably contacting the wall of the bore in which said` plunger is mounted for preventing leakage of fluid under pressure from said chamber.

The upper end of plunger |18 engages one side of one end of a follower arm |83 the opposite end of which is pivotally mounted on a pin |84 in the casing. Engaging the follower arm |83 opposite to plunger |18 is a lug |85 projecting from a foot lever or pedal |88 which is hinged on a fulcrum in |81 carried by a. bracket |99. At one side of the fulcrum pin |81 a spring |88 acts on the pedal |88 for urging it to an extreme upper position defined by contact between a button |89 at the opposite side of fulcrum pin |81 and the bracket |98.

With the foot pedal |88 in its uppermost position as shown in the drawing, a bias springV |9| contained in chamber |1| and supported at one end on the follower plate |81 acts on plunger |18 to hold it in an uppermost position in contact with one side of the follower arm |83 and urging said arm into contact with lug |85, said spring being rendered effective to act as just de- 14 scribed by the follower plate |61 when in contact; with a stop |94 in the casing. The follower plate:A |81 will be moved into engagement with stop- !94 by regulating spring |83 when the pressure of uid in chamber |65 and in the control pipe 88 is substantially that of the atmosphere. With the'parts disposed as just described, spring |11 will seat the supplyl valve |15, and the releasevalve |13 will be just seated or slightly unseated from its seat on a follower plate |51.

ln operation, let it be. assumed that the supply-- pipe |38 and supply valve chamber |14 are supplied with fluid under pressure. If the pedal |86 is now depressed it will act through lug |85 to move plunger |18 in a downward direction against the opposing force of bias spring |9| which force is less than that of the regulating spring |83. If the release valve |13is initially open said valve will be moved by the pressure of spring |11 on the supply valve |15 until it` becomes seated against the follower |81, following which, it will be held against movement by the regulating spring |63 so that further movement of plunger |19 in aVV downward direction will then be relative to said valve and also to the supply valve |15 which will be held against movement by stem |92. Asa result, the plunger |18 will move out of seating engagementv with the supply valve |15 and fluid under pressure will then ii'ow from chamber |14 past said valve to chamber |I1| and thence to the control pipe 88 leading to the double checkvalve 89.

At the same time as fluid under pressure is supplied to the control pipe 88 as just described, it will also equalize through the stabilizing choke |12 into diaphragm chamber |65, and when said pressure becomes suflicient to overcome the opposing force of regulating spring |63 on the diaphragm |88, said diaphragm will deect against said spring. Assuming that movement of the pedalV |86 from its normal position is limited to some chosen degree, movement of the plunger |19 will stop in a corresponding position. Deilectinn of diaphragm |88 by increasing pressure v of iiuid in the control pipe 88 and in diaphragm chamber |65 will then permit movement of the seated release valve |13 and of the open supply valve |15 by spring |11 along with said diaphragrn and relative to said plunger until said supply valve contacts its seat on said plunger.` With the supply valve |15 seated further flow of fluid under press-ure to the control pipe 88A and to diaphragm chamber |85 will be prevented whereupon movement ofthe diaphragm |88 will cease. The pressure of fluid thus obtained in thev control pipe 88 will therefore depend upon and be proportional to the extent of movement of the control pedal |88 out of its normal position, in which it is shown in the drawing.

If the operator depresses the pedal 88 to a greater degree the pressure of fluid in the vcon.- trol. pipe 88. will be increased correspondingly' by operation of the valve device 81 in the same ina-nner as lust described'. On the other if the operator permits pedal |88 to be moved back toward but not to its normal position by spring |83 the pressure of fluid in. the control pipe 88. acting in chaniiber 11| en plunger |18, plus the pressure of bias spring |81, will move plunger along with the pedal |86.

As a result, the release valve |13 will be pulled from its on follower plate |81 by the seated supply valve |15 acting through the stem 18?.; so that fluid under pressure will be released from the control pipe 88 pastvsaid valve to chamber |61.

15 and thence to atmosphere through port |52. The pressure of fluid in diaphragm chamber |65 will reduce with that in the control pipe 38 and, as a result, the regulating spring |53 will deilect the diaphragm it in an upward direction. Now assuming that movement of the pedal itt and plunger 313 have ceased, this movement of diaphragm itil will be relative to and in the direclon of the open release valve |13, and the iollower it? will nnally move into seating contact with said valve in a position of the diaphragm it@ corresponding to that of the foot pedal |86 for preventing further release of fluid under pressure from the control pipe 3B. The pressure or duid in the control pipe 88 will therefore be again limited to a degree corresponding to the position of the pedal |83. If the foot pedal |86 is permitted to return further toward its, normal position the pressure of duid in the 4control pipe @t will be correspondingly reduced as will be apparent, while in case said pedal is returned fully to its normal position, in which it is shown in the drawing, the diaphragm follower |51 will move into Contact with stop l after the pressure of iluid in the control pipe 88 has been reduced to substantially atmospheric pressure. When the diaphragm follower |61 thus 4contacts stop ISd the release valve |23 may still be slightly open or just closed.

t will new be seen that when the foot pedal l 85 is in its normal position in which position the control pipe 88 will be at substantially atmospheric pressure, the double check valve 89 is .capaole of movement to its upper position by pressure of fluid. supplied to pipe 8G so as to permit control of the throttle control motor 5 and thereby the throttle valve device to regulate the supply of steam to pipe 3 by operation of the hand operated throttle control valve device 35. It will also be noted that when the hand operated throttle control valve device 85 is in its normal position in which it is shown in Figs. 1, 2 and 3 oi the drawings, opening the control pipe 8E to atmosphere, the double check valve 89 is capable of movement to its lower position under pressure oi fluid supplied to the control pipe 88, so that operation oi the throttle control motor 6 to regulate the throttle valve device can be controlled by the foot operated throttle control valve device 81, when fluid under pressure is supplied to pipe itt.

According to the present form oi the invention, the supply of fluid under pressure to pipe |80 leading to the foot operated throttle control valve device 81 is controlled through an interlock valve device L15 which in turn is controlled by the hand operated throttle control valve device 85 so as to prevent supply of fluid under pressure to pipe 8S by operation of the foot operated throttle control valve device 3l for controlling the throttle valve device l, when the hand operated throttle control valve device 85 is being operated to control said throttle valve device.

The interlock valve device |95 is structurally identical to the cut-oli` Valve device |42 in that it comprises a supply valve |96 contained in a chamber iii? to which the fluid pressure supply pipe l is connected. The supply valve |58 is carried by a stem lil'ea of smaller diameter than and projecting from a sleeve |98 which is slidaloly mounted in a bore in a bushing 262 secured in the casing. Between the sleeve |98 and valve H56 and encircling the stem lea is an annular chamber |99 which is constantly supplied with fluid under pressure from the supply pipe 94 through the annular chamber |49, a port 20|), an annular chamber 28| encircling bushing 202 and thence through one or more ports 293. Extending through the sleeve |98, the stem Ita and the supply valve |95 is an axial bore 264 which is open at one end to the supply valve chamber |91, while its opposite end is open through a valve seat to a chamber 205 containing a uid pressure release valve 236 arranged to contact said seat for closing communication through said bore. Chamber 2535 is open through a port 201 to chamber |25 and thence to atmosphere through port |25. A plunger 268 slidably mounted in a suitable bore through the outer end Wall of chamber 2t5 extends into said chamber and therein is provided vvith a head 2| 5 which engages the release valve 285. The opposite end of plunger 208 is arranged to be engaged by a raised portion or cam 2| provided on the operators vcontrol lever |23, preferably only when said lever is in its normal position.

Engagement of cam 2|| with plunger 228 will seat the release valve 25S against the end of sleeve |98 and then actuatc said sleeve and stem Ia to open the supply valve |96 for thereby supplying fluid under pressure to pipe leading to the operators foot control valve device 81. In all other positions oi lever |28 of the hand operated throttle control valve device 85, the cam 2|| will be out of contact with plunger 2138 to permit seating of valve |96 by a spring 2|2 contained in chamber |31 for thereby cutting off supply of fluid under pressure to pipe |8l With the supply valve |96 seated pressure of fluid in pipe lt will then blow the release valve 206 from its seat for releasing any fluid which may be in said pipe.

lt will thus be seen that when the hand operated throttle control valve device is in its normal position opening pipe 85 to atmosphere, the interlock valve device will be operated to supply fluid under pressure from the iluid pressure supply pipe 92 to the supply pipe |80 leading to the foot controlled throttle valve device 81 l for rendering said foot controlled valve device effective to control operation of the throttle control motor B and thereby of the throttle valve device for regulating the supply of steam to pipe 3. However, when the operators control lever |28 is in any position other than its normal position, the supply of nuid under pressure to pipe |80 will be out off and said pipe will be open to atmosphere, so that the foot operated throttle control valve device 81 will be prevented from controlling operation of the throttle control motor 6 and throttle valve device Thus, when the throttle valve device l is being controlled by the hand operated throttle control valve device 85, there can be no interference with such control from the foot operated throttle control valve device 81.

Description Figs. 6 and 7 According to this modication, the exhaust port 251 from valve chamber 2il5 in the interlock valve device |95 is omitted. Pipe 88 is disconnected from passage 2|3 and connected to valve chamber 2|B5. Port 2m! is omitted and the annular cavity 26| in the interlock valve device |95 is connected to pasage 2|3 leading to chamber 99. The control pipe 85 from the hand operated throttle control valve device 55 and the double check valve Se are omitted and pipe 9 from the throttle adjusting motor 6 is connected to valve chamber |91 in the interlock valve device |95. A

bias spring 2 |1 is provided insleeve |98 to act onA and unseat the valve 206. The operators control lever |28` is provided with a cam surface 2|4 for.

power position indicated by the dot-dash line I4 |jv and to also preferably provide through the medium of a surface 2|5 the same condition of saidv valves with said lever in the power cut-ofi` insuring position. The surfaces 2||y and 2|5 are connected by a recess 2 I6 which in the normal position of the operators control lever |28 is adapted to receive plunger 208 to permit opening of valve 206 by spring 2 I1 and closing of, valve |96 by spring 2|2-.

It will thus lbe seen that with the operators control lever |28 in its normal position communication will be established between the control pipe 68V from the foot operated throttle control" device'l and pipe 9 leading to the throttle control motor 6 past the open valve 206 andthence through bore 204 and the supply valve chamber |91, to permit control of a throttle adjusting motor 6 by operation of the foot operated control valve device 8'1. However, where the operators control lever |28 is'moved out of its normal position eifecting closure of valve 206 and opening of valve |96, the closing of valve 206 will' render the foot operated throttle control valve' device B1 ineffective to control the throttle adjusting motor 6, while opening of valve` |98 connects pipe 9 to passage 2|3 and thereby diaphragm chamber 99 for rendering the hand. operated throttle control valve device efiective to control said motor.

It will now be seen-that in the structure shown in Figs. l to of the drawings the foot operatedv throttle-control valve device 85 is rendered'effective for controlling thethrottle adjusting motor 6 by supplying fluid under pressure theretov through the cut-oir valve device |95 of the hand operated throttle control valve device 81, while upon movement of thev control lever |28 out of its normal position this supply to the foot operated throttle control valve device is cut-off to render the latter device ineffective. In contrast to this structure, the structure shown in Figs. 6 and '7 of the drawings accomplishes the saine end by intercepting the control passage 88 from the foot controlled throttle control? valve device l8T.

Summary From the above description it will now be seen'.

that the improved throttle control apparatusiprovides for control of a throttle for a prime mover from either of two different control stations, and that interlock means associated with the control means at one of said stations is operable to render the control means at the other station either elective or ineifective, depending upon the position of the control means at the one station. By this arrangement when the throttle is being controlled by the control means at the one station there can be no interference with such control by the control means at the other station, since, in one case, the supply of fluid under pressure to the control means at the oher station is cut off, and in the other case the control pipe from the last named control means is intercepted when the throttle is being controlled from the control means at the one station.

Having now described my invention, what I claim as new and desire to secure by Letters Patent, is:

1. An, engine. throttle .control apparatus comprisingv in, combination, a iiuid pressure` adjust.- able throttle control motor,` two operators control devices individually operative to control a communication for supplyingiluid under pressure to said motor toadjust samea valve controlling the communication controlled by one of said control devices, the` other control device comprisingv a lever having a power oi position and a power on position, means controlled by `said lever operable in vsaid power on position to actuate said valve to close they respective communication andin said power oiipositionto effect operation ofv said valve to open the respective communication, andY another valve forclosing communication between said other controlldeviceand,motor when the first named valve is openingA the respective communication.

2. An engine throttle control apparatus com.- prising in combination, a fluid pressure adjustable throttle controlrmotor, twov operators control devices individually operative to controla communication for supplying iluid under pressure to said motor to effect adjustment thereof, valve means having one position for opening theV communication controlled by' one of. said control devicesV to said motor. and for closing the cornmunication controlled by the other control device to said motor and having a secondposition for openingthe communication controlled by said other control device tosaid motor Aand for closing. the communicatoncontrolled by said one control device to said motor, said one control device comprising a lever having a power on position and a power ofi position, a cam on said lever operable in said power on position to move sai-d valve means -to said one position, and means operable in saidV power off position to move said valve means to its said second position.

3. An engine throttle controlapparatus comprising in: combination, a fluid pressure adjustable throttle control motor, a source of fluid under pressure, two operators control devices individually operative to establish a communication betweensaid source of fluid under pressure and Saidv motor for supplying fluid under pressure toY said motor; lvalv'e'means operable, upon operation of one of'said control/devices to establish the respective communication, to close communication be- .,tween said source and the other control device,

and other valve means operable upon supply ofV fluidunder pressure `to said motor by operation of either Vone ofA said control devices to close communication between said motor` and the other controldevice.

4. An engine throttle control apparatus` comprisin'g in combination, a fluid pressure adjustable throttle control motor, a source of fluid under pressure, a first operators control device operable to supply uid under pressure from said source to said motor and to release fluid under pressure from said motor to adjust same, a second operators control device operable to supply uid under pressure to and to release fluid under pressure from said motor to adjust same, interv lock means controlling supply of fluid under pres- 19 I by operation of said first operators control device.

5. An engine throttle control apparatus comprising in combination, a fluid pressure adjustable throttle control motor, two operators control devices individually operative to supply iluid under pressure to and to release uid under pressure from said motor, a double check valve interposed in the fluid pressure supply and release communications between said operators control devices and said motor and operable upon supply of fluid under pressure by either oneof said control devices to open the communication therebetween and said motor and to close the communication between said motor and the other control device, and interlock means controlled by one of said control devices and operable upon operation thereof to supply fluid under pressure to said motor to prevent supply of fluid under pressure to said motor by operation of the other control device.

6. An engine throttle control apparatus comprising in combination, a fluid pressure adjustable throttle control motor, two operators control devices each comprising a lever having a power on position and a power off position and valve means operable by said lever in said power on position to supply fluid under pressure to said motor and in said power oil position to release fluid under pressure from said motor, a valve controlling the fluid pressure supply communication to said motor controlled by one of said control devices, and having an open and a closed position for, respectively, opening and closing said communication, and means including a cam on the lever of the other control device operable with the lever in its power on position to move said valve to its closed position and in its power on position to effect movement of said valve to its open position.

7. An engine throttle control apparatus comprising in combination, a throttle control motor comprising a casing, a iluid pressure adjustable piston in said casing subject to pressures of fluid in a first chamber at one side of said piston and in a second chamber at the opposite side, a rst operators control device comprising a lever having a normal position, a power on position at one side of said normal position and a power off position at the opposite side of said normal position and valve means operable by said lever in said power on position toV effect a supply of fluid under pressure to said iirst chamber, and a release fluid under pressure from said second chamber, in said power off position to effect a supply of fluid under pressure to said'second chamber and a release fluid under pressure from said first chamber, and in said normal position to effect a release fluid under pressure from both of saidchambers, a second operators control device for effecting a supply of Iluid under pressure to said first chamber, valve means controlling the fluid pressure supply communication to said first chamber by way of said second operators control device, and means including a cam on said lever operable to actuate said valve means to close the respective communication with said lever out of said normal position and to open the respective communication with said lever in said normal position.

8. An engine throttle control apparatus comprising in combination, a throttle adjusting motor comprising a casing, a fluid pressure adjustable piston in said casing subject to pressures of fluid in a, first chamber at one side of said piston and in a second chamber at the opposite side, a rst operators control device comprising a lever having a normal position, a power-on position at one side of said normal position and a power-olf position lat the opposite side of said normal position, a first valve means controlled by said lever and operable in said power-on position to effect supply of fluid under pressure to said rst chamber and operable in said normal and power-off position to effect opening 0f said rst chamber to a iluid pressure release communication, and a second valve means controlled by said leverrand operable in said power-olf position to eect supply of iluid under pressure to said second chamber and operable in said normal and power-on positions to effect opening of said second chamber to a iluid pressure release communication, a second operators control device for effecting supply and release of fluid under pressure to and from said rst chamber, and interlock means controlled by said lever operable in said normal position to render said second operators control device effective to effect supply and release of fluid under pressure to and from said first chamber and operable in said power-on and power-off positions to render said second operators control device ineffective to effect supply and release of fluid under pressure to and from said rst chamber.

SIDNEY G. DOWN REFERENCES CITED The following references are of record in the le of this patent:

UNITED STATES PATENTS 

